• Title/Summary/Keyword: 타이어 공기압 측정 시스템

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Technical Trend of Tire Pressure Monitoring System (타이어 공기압 감지 시스템 기술 동향)

  • Chun, J.Y.;Cho, P.D.
    • Electronics and Telecommunications Trends
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    • v.20 no.6 s.96
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    • pp.166-177
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    • 2005
  • 차량 운전자의 안전을 보장하고 운전의 편의를 돕기 위한 기술로는 차량용 레이더, 타이어 공기압 감지 장치, 원격시동 장치, 지리정보시스템 등이 있다. 그중 타이어는 차량의 수많은 부품들 중 도로와 직접 접촉하는 부품으로 타이어의 상태는 운전자의 안전에 직접적인 관련이 있다. 과거 포드 자동차에서는 파이어스톤에서 납품한 타이어 전량을 리콜하는 대규모 교체사례가 있었다. 초기 타이어 공기압 감지 장치는 일부 고급차종에만 적용되었는데 최근 압력 및 온도 측정용 센서의 높은 신뢰성과 양산비용의절감 및 국가의 정책적 요소가 복합적으로 작용하여 일반 차량에도 보급화가 진행중이다. 본 논문에서는 오늘날 타이어 공기압 감지 장치를 양산하는 업체들의 기술 동향을 분석하여 타이어 공기압 감지 시스템의 도입 배경, 국내외 기술기준 현황, 타이어 공기압 감지 시스템을 형성하는 기본 구조, 높은 정밀도를 가지는 반도체 센서 및 관련 기술에 대해 살펴본다.

A Design of the Automation Tyre Tread State Check System based on IoT Service (IoT 서비스 기반 자동차 타이어 트레드 자동 점검 시스템 설계)

  • Kim, Minyoung;Choi, Donggyu;Jang, Jong-wook
    • The Journal of the Convergence on Culture Technology
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    • v.6 no.4
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    • pp.825-831
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    • 2020
  • In modern society, automobiles have become an essential means of transportation. It is the only consumable that is worn by contacting the ground among automobile parts. If the tyres are severely worn, the tyres may be break, presenting a risk of a serious accident to the driver. To avoid this risk, drivers should check tyre pressure and tread condition before driving a car. Tyre inflation pressure can be easily measured by TPMS, but in the case of tyre tread conditions, it can be cumbersome when the driver measures it directly using a coin or vernier caliper. This hassle can expose the driver to traffic accidents due to tyre breakage by neglecting to measure the condition of the tyre tread. In this paper, we introduce the contents of research to design an IoT service-based system that can automatically measure automobile tyres, and we verified the possibility of realizing the system by actually implementing and testing some components of the system.

Development of a Load Measurement System for Vehicles using Tire Pressure System Technology (타이어 공기압 시스템 기술을 사용한 차량의 적재중량 측정 시스템 개발)

  • Park, Jae-Hyun;Lee, Seung-Ho
    • Journal of IKEEE
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    • v.24 no.1
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    • pp.33-39
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    • 2020
  • In this paper, we propose the design technique of the vehicle's load weight measuring system using tire pressure, which is one of the physical elements of tires. The proposed technique consists of four processes: noise correction by load and vibration, gas flow correction, data mixer and weight conversion. Noise correction by load and vibration eliminates noise that increases the tire's internal pressure due to external shocks and vibrations produced by the vehicle while it is in motion. In the gas flow correction process, the noise of the internal pressure of the tire is increased due to the temperature rise of the ground with respect to the data obtained through the noise correction process due to the load and vibration. In the data mixer process, the load and pressure on the tolerances the empty, median and the full load are classified according to the change in pressure of the tire that is delivered perpendicular to the tire in the event of cargo. In the weight conversion process, weight is expressed by weight through weight conversion algorithms using noise correction results by load and vibration and gas flow correction. The weight conversion algorithm calculates the weight conversion factor, which is the slope of the linear function with respect to the load and pressure change, and converts the weight. In order to evaluate the accuracy of the loading weight measurement system of the vehicle using the tire pneumatic system technique proposed in this paper, we propose the design technique of the vehicle's load weight measuring system using tire pressure, which is one of the physical elements of tires.. Noise correction results by load and vibration and gas flow data correction results showed reliable results. In addition, repeated weight precision test showed better weight accuracy than the standard value of 90% of domestic companies.

Automobile Engine Information Display Device Using CAN Communication (캔 통신을 이용한 자동차 엔진 정보 표시장치)

  • Park, Yang-Jae
    • Journal of Digital Convergence
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    • v.17 no.12
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    • pp.203-210
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    • 2019
  • Most cars today use electronic control to control the state of the engine to achieve optimum performance. This study developed a device for maintaining fault diagnosis and optimal vehicle status by displaying the engine information of a car on the screen in real time using can communication. This system displays information generated from the engine to the driver in real time such as engine intake and exhaust temperature, current battery voltage, tire pressure, RPM, DPF collection amount, torque, and horsepower through the OBD2 socket. You can check immediately. It can help you to drive safely by measuring tire pressure and displaying it on the screen, and it provides a mode to set the shift timing to suit your taste. In particular, in the case of diesel engine cars, the problems caused by smoke can adversely affect the performance and environmental pollution. Therefore, the system was developed to display the DPF collection amount on the system screen to prevent environmental pollution and to manage the vehicle efficiently.

A Study on the Dynamic Characteristics of TPMS Piezoelectric Element using Finite Element Method (유한요소해석을 이용한 TPMS용 압전 발전소자의 동특성 해석)

  • Kim, Sung Jun;Jung, Haeil
    • Journal of the Korean Society for Precision Engineering
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    • v.30 no.12
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    • pp.1341-1347
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    • 2013
  • Energy harvesting is a clean technology to obtain energy from the surrounding environment such as wind, sun, vibration and so on. In particular, the current TPMS (Tire Pressure Monitoring Device) is very small and attached to the outside of a vehicle and power supply of the TPMS is limited. Therefore, energy harvesting using vibration energy of piezoelectric materials is important to the TPMS. In this paper, we analyzed several models using ANSYS which is one of the FEA (Finite Element Analysis) package and compared corresponding strain frequency response functions of the TPMS. In addition, we confirmed that dynamic characteristics variations according to geometry changes have effects on the performance of the TPMS.

Transmission Interval Optimization by Analysis of Collision Probability in Low Power TPMS (저전력 운영 TPMS에서 충돌 확률 분석을 통한 전송주기 최적화)

  • Lim, Sol;Choi, Han Wool;Kim, Dae Jin
    • The Journal of Korea Institute of Information, Electronics, and Communication Technology
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    • v.10 no.5
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    • pp.364-371
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    • 2017
  • TPMS is a vehicle electric system that measures the air pressure of a tire, and informs the driver of current tire states. The TPMS sensor typically uses unidirectional communication for small size, light weight, and low power. The transmission period of the sensor indicates the service quality of monitoring the tire. In order to determine the optimal transmission period, frame collision probability and the life time of the sensor should be analyzed. In this paper, collision probability model using Venn diagram is designed in low power TPMS with the normal and warning mode. And the life time and a collision probability were analyzed with the ratio(n) of the normal mode to warning mode transmission period. As a result, $T_{nP}=31sec$ and $T_{wP}=2.4sec$ at 5 years, and $T_{nP}=71sec$ and $T_{wP}=2.5sec$ at 7 years.

Design and Fabrication of 4-beam Silicon-Micro Piezoresistive Accelerometer for TPMS Application (TPMS용 4빔 실리콘 미세 압저항형 가속도센서의 설계 및 제작)

  • Park, Ki-Woong;Kim, Hyeon-Cheol
    • Journal of the Institute of Electronics Engineers of Korea SD
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    • v.49 no.2
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    • pp.1-8
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    • 2012
  • This paper presents the accelerometer which is a key component of TPMS(Tire Pressure Monitoring System). Generally a piezoresistive accelerometer has characteristics of lower cost, better linearity and better immunity about the environmnet noise than a capacitive one. Three types of piezoresistive accelerometers are degined and simulated using ANSYS program. The best one is a piezoresistive sensor which is supported by four beams located at the center of the edge of the mass after comparing the characteristics of resonant frequency of the three types. Considering the sensor size and a simulated maximum stress and maximum displacement, the length of beams is set as $200{\mu}m$. The size of a piezoresistive accelerometer is $3.0mm{\times}3.0mm{\times}0.4mm$. The sensor output is characterized by measuring the output characteristic depending on angle. As a result the offset voltage of the accelerometer is 43.2 mV and its sensitivity is $42.5{\mu}V/V/g$. The temperature bias drift is measured. The shock durability of the sensor is 1500g and the measuring range is 0 ~ 60 g.